A uniform spherical shell of mass M-13.0 kg and radius R -0.970 m can rotate about a vertical axis on frictionless bearings (see the figure). A massless cord passes around the equator of the shell, over a pulley of rotational inertia /-0.110 kg-m² and radius r -0.140 m, and is attached to a small object of mass m - 3.70 kg. There is no friction on the pulley's axle; the cord does not slip on the pulley. What is the speed of the object when it has fallen a distance 1.11 m after being released from rest? Use energy considerations. Number Units m/s M. R

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Chapter1: Units, Trigonometry. And Vectors
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A uniform spherical shell of mass M-13.0 kg and radius R = 0.970 m can rotate about a vertical axis on frictionless bearings (see the
figure). A massless cord passes around the equator of the shell, over a pulley of rotational inertia /-0.110 kg-m² and radius r = 0.140
m, and is attached to a small object of mass m 3.70 kg. There is no friction on the pulley's axle; the cord does not slip on the pulley.
What is the speed of the object when it has fallen a distance 1.11 m after being released from rest? Use energy considerations.
Number
Units
m/s
M, R
C
Ne
Ur
Qu
Nu
Transcribed Image Text:A uniform spherical shell of mass M-13.0 kg and radius R = 0.970 m can rotate about a vertical axis on frictionless bearings (see the figure). A massless cord passes around the equator of the shell, over a pulley of rotational inertia /-0.110 kg-m² and radius r = 0.140 m, and is attached to a small object of mass m 3.70 kg. There is no friction on the pulley's axle; the cord does not slip on the pulley. What is the speed of the object when it has fallen a distance 1.11 m after being released from rest? Use energy considerations. Number Units m/s M, R C Ne Ur Qu Nu
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